When you mix colored lights you add colors until you get white.
There are a few colors you can use to make mauve. For a deeper mauve, you can mix red with a hint of blue until the deep hue is achieved. Another way is to mix pink with a little blue.
The colors line up the way they do based on their wavelengths. Red has the largest wavelength, orange's is a little smaller, yellow smaller, and so forth until you get to purple (indigo & violet), which has the smallest wavelength. Because these wavelengths never change, the colors are always in that order.
Chlorine gas is green, and there are probably many others.
Different kinds of light use different mechanisms. Currently, the technologies used include incandescent lights, fluorescent lights, and LEDs.In an incandescent light (that's the most wasteful light), a current heats up a wire, until it glows.In a fluorescent light, the current excites atoms, i.e., it raises electrons to a higher energy level. When the electrons fall back, they emit light.I believe LEDs work on a similar principle, i.e., exciting the atoms; however, the material is solid instead of a gas.Different kinds of light use different mechanisms. Currently, the technologies used include incandescent lights, fluorescent lights, and LEDs.In an incandescent light (that's the most wasteful light), a current heats up a wire, until it glows.In a fluorescent light, the current excites atoms, i.e., it raises electrons to a higher energy level. When the electrons fall back, they emit light.I believe LEDs work on a similar principle, i.e., exciting the atoms; however, the material is solid instead of a gas.Different kinds of light use different mechanisms. Currently, the technologies used include incandescent lights, fluorescent lights, and LEDs.In an incandescent light (that's the most wasteful light), a current heats up a wire, until it glows.In a fluorescent light, the current excites atoms, i.e., it raises electrons to a higher energy level. When the electrons fall back, they emit light.I believe LEDs work on a similar principle, i.e., exciting the atoms; however, the material is solid instead of a gas.Different kinds of light use different mechanisms. Currently, the technologies used include incandescent lights, fluorescent lights, and LEDs.In an incandescent light (that's the most wasteful light), a current heats up a wire, until it glows.In a fluorescent light, the current excites atoms, i.e., it raises electrons to a higher energy level. When the electrons fall back, they emit light.I believe LEDs work on a similar principle, i.e., exciting the atoms; however, the material is solid instead of a gas.
Yes, in this picture the last three colors can be seen as black depending what object they're on. On a TV or Cinema screen for example, when the screen is dark, any of the last three colors will be referred to as "black". At that moment the human eye will see it that way. There are shades of black that contain more blue, more purple, more red, or more green, that confuse the human eye until you set them right next to one another. You really can't tell the difference unless you are an experienced artist who have dealt with these colors before, or unless you set them close to one another.
You can not get colored seeds at all on Moshi Monsters. The flowers grow into the colors, but it is random so you will not know what color the flower is until it grows.
In the summer a trees leaves are green... they don't turn colors until autumn
It depends on what the water is colored with. If it's kool-aid or red dye, you've got a difficult to remove stain. If the water is colored with a light dye or washable ink, it should stain only until the clothing is washed.
In the timeline of history? About 30 seconds after clear light bulbs. The idea was a natural, and arose almost immediately. Edison was offering short (8 bulb) strings of colored lights for "celebrations" (Christmas was the obvious target) before the turn of the 20th century. They were horrendously expensive - the equivalent, in the dollars of that time, of about $350 for an 8 light set. Christmas tree lights today are one of the cheapest expenses in decorating for Christmas - but that didn't happen until after World War II. Even in 1940, a string or strings of colored lights to decorate a 6' tree ran about $15 - today's equivalent of $240.00
Depends on which application you use
Yes it had lights. From 1908 until 1909 it had acetylene brass lights. In 1910 electric lights were installed.
pyramids
The Pikachu colored Pichu event was only until February 14th, 2010.
Keep planting the seeds until you get the color that you want.
Well, actually, you have to make the stink bomb. You go to the science lab and to the beaker with the test tubes nest to it. You click on the beaker and it will show up with three colors of liquid. you but the boiler that is underneath the beaker to 4, and add the colored liquids to the beaker. What you want to do is create a grayish green color with all of the colors mixed. Fill up the beaker with the colors, though, otherwise it won't work. So, you fill up the beaker with the colors until it is full and it has a grayish green color to it.
When using photography / darkroom equipment, it is important that you are sure that your prints are not being ruined by light that is in the room. The idea of a darkroom, after all, is to keep the film from being exposed. However, you still do need to use safety lights so that you can see a little in order to do the work. Many people assume that these lights can have no negative impact on the prints, but that is just not the case. They can actually do a lot of damage if you have not set the room up correctly.In order to find out how well your room is set up, there is a test that you will need to run. The first step is to turn off all of the lights and quickly run a blank photograph through the entire process. You should just get a white photo with no fog at all. This fog can ruin other photographs, though people sometimes do not see it since the colors get in the way. By developing a shot without any colors, you will have a good base color to look at for the next step of the test.For that, turn the lights back on. When you are developing the photo in the room, set an object on the photo paper that is completely opaque. You do not want any light to be able to get through it at all. Leave the lights on for this project for the entire duration. You will again be developing a blank photograph, but this time you will do so under the lights. This will tell you whether or not they are having any sort of impact on the paper.When you are all done, just look at both pieces of paper. The first should be completely blank, without any fog. The next should be the same if the lights were really set up correctly so that they did not change the paper. If they did cause it to fog, there will be a lighter square where you set the opaque object. If you can see this square, you will know that everything else is not truly white. You will want to set the lights up again. You can then continue to perform this test until you get two pieces of paper that are both completely white, without any sort of fog.
He liked dark colors until he saw a Chinese picture that had dark colors